DE19819634A1 - Device for removing protective sleeve from a self expanding stent - Google Patents

Abstract

An arrangement for removing the protective sleeve (13) of a self expanding stent (12) which can be implanted in the body, comprises a longitudinally movable and/or rotatable element (17) which can be connected to the sleeve by a cord or string. A mechanical or electrical energy storage unit is used to move the element.

Description

The invention relates to a device for removing a Protective cover of an implant implanted in a body vessel expanding stents.

In the vascular system of the human body, it can be deposited lime or fat may narrow the arteries. These so-called stenoses are made with the help of angioplasty expanded to allow a better flow in the vessel chen. Under angioplasty, percutaneous insertion of a Balloon catheters understood, the balloon at the site of the Constriction is subjected to high pressure to the material which causes the narrowing to displace into the vessel wall gene.  

Even after angioplasty, there is an increased risk of Restenosis, d. H. a new narrowing or a ver closure of the vessel. For this reason, he will so-called stents are implanted in diseased areas. Under a Stent is understood to be an implantable element that the The task is to support the vessel and the risk of remnants reduce nose.

There are two types of stents:

• a) Balloon Expandable Stents
• b) self-expanding stents.

Balloon expandable stents are mesh fabrics in hollow cylinders scher form or winding wires, also in hollow cylindrical scher form, which are pushed onto a balloon and on Location of the diseased vascular site with high pressure against or in the vessel wall are pressed in. This type of stent remains as a permanent implant in the body and can come from different Materials such as stainless steel, titanium, tantalum and other metallic or polymeric materials be.

In contrast to the balloon expandable stents, which the pla Use the static deformation of the material during expansion zen, self-expandable stents are characterized by a fe changing behavior. This means that self-expandable Stents have their maximum diameter at rest and further expansion by a balloon is not possible is because the stent resiliently returns to its rest position.

These stents are pressed together for implantation Condition mounted on catheter. To the spontaneous expansion too prevent, a protective cover with preference over the stent wise low friction. The protective cover must withdrawn to release the stent.  

Systems available on the market for withdrawing the Protective covers have a kind of pistol as a retraction mechanism on by pulling the trigger the case backwards pulls. Because here a very slow and controlled retreat Movement is required, the trigger of the pistol grips be operated several times. So no continuous and uniform release of the stent can be achieved.

In other systems, the protective cover is withdrawn by two handles attached to each other at the end of the catheter be moved. This system is very difficult to control and does not guarantee a homogeneous, uniform movement supply.

A disadvantage of all systems is that the withdrawal systems are firmly attached to the catheter and as a disposable item must be disposed of in the catheter. This means an unnecessary one high volume of waste and also causes a large volume Packaging that automatically has a higher storage capacity hospitals or catheter laboratories.

The present invention has for its object a Device for removing a protective cover from itself expandable stent to propose the protective cover withdraws evenly and continuously.

The task is carried out with a device with the features of Claim 1 solved.

The energy storage is designed so that a uniform and continuous movement of the over a thread with the Protective cover connected element is guaranteed. As an Ener For example, an expandable spring mechanism can be used to store gas must be used. But also a replaceable battery for a motor, one through an induction coil from the outside  rechargeable battery for a motor or an inductive one from the outside rechargeable capacitor for driving a motor can do this be used. If the element is linear motion leads, so a gear arrangement to transform the Rotational movement of the spring mechanism or the motor in one Translation movement may be provided. Here comes for example have a spindle drive in question, the element on one the spindle can be arranged nut. In addition, the Device a trigger mechanism for the movement of the Elements have. At least the drive unit with the Energy storage and the trigger mechanism can be in one Be arranged housing, which are preferably made of metal can and eto-sterilizable, hot steam sterilizable or can be disinfected using suitable fluorides. The wire or the thread for the protective cover can pass between its entry into the Device and the attachment point on the element preferably be redirected one or more times, so that only a short movement of the element is required to complete the protective cover to be withdrawn from the stent.

Below is a preferred embodiment of one device according to the invention with reference to the drawing wrote.

Show it:

Figure 1 is a partially sectioned side view of an inventive device and a catheter.

Fig. 2 is an enlarged view of a spin deltriebs the device of Fig. 1;

Fig. 3 is an enlarged detail view of a drive unit to the apparatus in FIG. 1.

Fig. 1 shows a catheter 11 for a self-expandable stent 12 and a device 10 used for the removal of a protective sheath 13 from the stent 12. The device 10 has two parts 14 and 15 , the gear part 14 being firmly connected to the catheter 11 . The drive unit 15 is releasably attachable to the gear part 14 and reusable.

As shown in FIG. 2, the transmission part 14 includes a spindle 16 which is provided with a thread and is arranged on which a nut 17. The spindle nut 17 is connected in a manner not shown by a wire or thread with the protective sheath 13 of the stent 12 . The spindle 16 and the spindle nut 17 are preferably arranged in a transparent housing 18 . The spindle 16 is set in rotation in the form of a spring mechanism by an energy store, not shown, contained in the drive unit 15 . As a result, the spindle nut 17 moves along the spindle 16 and can remove the protective sheath 13 from the stent 12 via the thread or the wire. The drive unit 15 consists of an outer metallic shell 19 , preferably made of stainless steel, titanium or anodized aluminum, with a handwheel 20 . The handwheel 20 serves to wind up the spring mechanism. The metallic structure ensures a safe function, which is guaranteed even after multiple use or multiple sterilization. Preferably, the spring mechanism arranged in the interior of the housing can be activated by a release button (not shown in more detail). A mechanical transmission, similar to a clockwork, guarantees a uniform rotational movement at constant speed when the button is pressed. The spring mechanism can be designed so that it guarantees a uniform movement for all available lengths of self-expandable stents.

Claims (13)

1. A device ( 10 ) for removing a protective sheath ( 13 ) of an implanted in a body vessel, self-expanding the stent ( 12 ), characterized by a longitudinally displaceable and / or rotatably arranged element ( 17 ) in the device, which has a thread or a Cord with the protective cover ( 13 ) can be connected, and at least one mechanical or electrical energy store for moving the element ( 17 ). 2. Device according to claim 1, characterized in that the energy storage device is a retractable spring mechanism. 3. Device according to claim 1, characterized in that the energy storage by an induction coil of external rechargeable battery for driving a motor. 4. The device according to claim 1, characterized in that the energy storage is an inductively rechargeable from the outside Is a capacitor for driving a motor. 5. The device according to claim 1, characterized in that the energy storage is a replaceable battery is driven by an engine. 6. Device according to one of claims 1 to 5, characterized in that a spindle drive is provided for converting the rotational movement of the spring mechanism or the motor into a translational movement of the element ( 17 ) and the element ( 17 ) one on the spindle ( 16 ) arranged mother is. 7. Device according to one of claims 1 to 6, characterized in that an externally actuable trigger mechanism for initiating the movement of the element ( 17 ) is provided. 8. Device according to one of claims 1 to 7, characterized in that the thread is deflected one or more times between entry into the device and attachment point on the element ( 17 ). 9. Device according to one of claims 1 to 8, characterized in that at least the drive unit ( 15 ) with the energy store and the trigger mechanism are arranged in a sterile housing ( 19 ). 10. The device according to claim 9, characterized in that the housing ( 19 ) is made of metal. 11. The device according to claim 9 or 10, characterized in that the housing ( 19 ) is eto-sterilizable. 12. The apparatus of claim 9 or 10, characterized in that the housing ( 19 ) can be steam sterilized. 13. Device according to one of claims 9 to 12, characterized in that the housing ( 19 ) can be disinfected by suitable fluo ride.